* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Branching Problem Set
Polycomb Group Proteins and Cancer wikipedia , lookup
Public health genomics wikipedia , lookup
Gene desert wikipedia , lookup
Epigenetics of diabetes Type 2 wikipedia , lookup
History of genetic engineering wikipedia , lookup
Site-specific recombinase technology wikipedia , lookup
X-inactivation wikipedia , lookup
Essential gene wikipedia , lookup
Nutriepigenomics wikipedia , lookup
Genome evolution wikipedia , lookup
Gene expression programming wikipedia , lookup
Artificial gene synthesis wikipedia , lookup
Ridge (biology) wikipedia , lookup
Quantitative trait locus wikipedia , lookup
Genomic imprinting wikipedia , lookup
Microevolution wikipedia , lookup
Minimal genome wikipedia , lookup
Genome (book) wikipedia , lookup
Biology and consumer behaviour wikipedia , lookup
Epigenetics of human development wikipedia , lookup
Branching Problem Set 1 Genes A and B are unlinked autosomal genes. In both cases, wild type is dominant to mutant (A>a and B>b). Determine the F2 phenotypic ratios using GENOTYPIC branching for the dihybrid cross a x b. 2 Genes A B and D are unlinked autosomal genes. In both cases, wild type is dominant to mutant (A>a and B>b D>d). Use branching to determine the F2 phenotypic ratios for the trihybrid cross ab x d. 3 Genes A B and F are unlinked autosomal genes. For A and B, wild type is dominant to mutant (A>a and B>b). For F, wild type and mutant are semidominant. Use branching to determine the phenotypic ratios for the trihybrid cross a x bf. 4 In Drosophila the gene for white eyes (w) is X-linked and the gene for black body (b) is autosomal. In both genes, the wild type is dominant to the mutant. Use BRANCHING to determine the F2 PHENOTYPIC ratios in the cross. male black body x female white eyes 5 In Drosophila the gene for white eyes (w) is X-linked and the gene for black body (b) is autosomal. The gene for vestigial wing (v) us also autosomal and is not linked to black body. In all genes, the wild type is dominant to the mutant. Use BRANCHING to determine the F2 PHENOTYPIC ratios in the cross. . male white eyes black body x female vestigial wing Branching Problem Set – Anwers Key Problem 1 1BB 1AA 2Bb 1bb 1BB 2Aa 2Bb 1bb 1BB 1aa 2Bb 1bb =1 =2 =1 =2 =4 =2 =1 =2 =1 AB AB Ab AB AB Ab aB aB ab 9 AB 3 Ab 3 aB 1 ab Problem 2 3A 3B 1b 1a 3B 1b 3D 27 ABD 1d 3D 9 9 ABd AbD 1d 3D 3 9 Abd aBD 1d 3D 3 3 aBd abD 1d 1 abd 1F 2Ff 1f 1F 2Ff 1f 1F 2Ff 1f 1F 2Ff 1f 9 18 9 3 6 3 3 6 3 1 2 1 ABF ABFf ABf AbF AbFf Abf aBF aBFf aBf abF abFf abf Problem 3 3A 3B 1b 1a 3B 1b * Ff = heterozygous phenotype Problem 4 F1 = WYbb (male) x wwBB (female) F2 = wYBb (male) x WwBb (female) w W w W Y w 3B 3 WB female 1b 3B 1 3 Wb wB “ “ 1b 3B 1 3 wb WB “ male 1b 3B 1 3 Wb wB “ “ 1b 1 wb “ Problem 5 F1 = wYbbVV (male) x WWBBvv (female) F2 = WYBbVv (male) x WwBbVv (female) 3B W 1b W 3V 9 WBV female 1v 3V 3 WBv 3 WbV “ “ 1v 3V 1 Wbv 9 WBV “ “ 3 WBv 3 WbV “ “ 1 Wbv 9 WBV “ male 3 WBv 3 WbV “ “ 1 Wbv 9 wBV “ “ 3 wBv 3 wbV “ “ 1 wbv “ w W Y w 3B 1v 3V 1b 1v 3V 3B 1v 3V 1b 1v 3V 3B 1v 3V 1b 1v note that the ratios for the females are duplicated. You could simplify the results by combining the two sets.